Red
When you mix red and blue, you get magenta. When you shine a green light on magenta, the green light will be absorbed by the magenta, resulting in a dark color or black, depending on the intensity of the green light.
The complementary color of green light is magenta.
When white light shines through a green glass bottle, the bottle absorbs most green wavelengths, leaving red and blue light to transmit through. This combination of red and blue light creates the perception of magenta. Magenta is a secondary color that is formed by the combination of red and blue light.
Magenta absorbs green light. It appears as a combination of red and blue, which results in the absorption of green wavelengths of light.
Green would appear black or very dark under magenta light because magenta light contains no green wavelengths to reflect back. Therefore, without green light to reflect, green objects would not be visible and would appear dark or black.
Magenta coloured light makes white light when mixed with green light
Green and magenta light combine to create white light.
When you mix red and blue, you get magenta. When you shine a green light on magenta, the green light will be absorbed by the magenta, resulting in a dark color or black, depending on the intensity of the green light.
No, yellow is not absorbed by the magenta filter. Magenta filters absorb green light and allow red and blue light to pass through. Yellow light is a combination of red and green light, so it will not be absorbed by the magenta filter.
Magenta is the opposite color of green on the color wheel, so it absorbs green light. When magenta pigment is present, it absorbs green wavelengths of light, making magenta appear as a mixture of blue and red.
The complementary color of green light is magenta.
When white light shines through a green glass bottle, the bottle absorbs most green wavelengths, leaving red and blue light to transmit through. This combination of red and blue light creates the perception of magenta. Magenta is a secondary color that is formed by the combination of red and blue light.
Magenta absorbs green light. It appears as a combination of red and blue, which results in the absorption of green wavelengths of light.
When you mix magenta and green light together, the result will be white light. This is because magenta light contains red and blue components, and when combined with green light which consists of green and blue components, all three primary colors (red, green, and blue) are present in equal amounts to produce white light.
Green would appear black or very dark under magenta light because magenta light contains no green wavelengths to reflect back. Therefore, without green light to reflect, green objects would not be visible and would appear dark or black.
Magenta glass transmits red and blue light, but absorbs green light. As a result, the transmitted light would appear as a mix of red and blue, creating a magenta hue.
black